CVD tube furnace with three heating zones
- OTF-1200X single temperature zone open-type vacuum tube furnace features a double-layer air-cooled structure.
- The surface temperature of the furnace body is kept below 60℃.
- The tube furnace with a pumping system is made of high-purity alumina microcrystalline fiber using high-temperature vacuum adsorption.
- Imported heating resistance wire program insert extends the high-temperature tube furnace body's service life.
Laboratory High-Temperature Electric Box Muffle Furnace
Description:
OTF-1200X single temperature zone open-type vacuum tube furnace adopts a double-layer air-cooled structure, the surface temperature of the furnace body is less than 60℃, and the furnace is formed by high purity alumina microcrystalline fiber high-temperature vacuum adsorption. Imported heating resistance wire program insert prolong the service life of the furnace body, and is designed for universities, scientific research institutes laboratories, and industrial and mining enterprises in a variety of controllable atmosphere and vacuum state of the metal, non-metal, and other compounds for sintering, melting, analysis and development of special ideal equipment.
Basic Parameter:
Model number
OTF-1200X
Tube specification
Outer diameter: 60 * Inner diameter:54 * length: 1000 mm
Operating voltage
Single-phase AC 208-240 V, 50/60Hz
Maximum power
3KW
Heating element
Fe-Cr-Al Alloy doped by Mo
Operating temperature
Maximum temperature: 1200℃ (inert gas must be used to prevent deformation of furnace tube)
Operating temperature: 1100℃
Recommended heating rate :≤ 20 ° C /min
Heating zone
Length of the heating zone: 440mm
Length of constant temperature zone: 150mm (±1℃)
Control mode
Fuzzy PID control and self-tuning function.
Intelligent 30-segment programmable control.
It has the function of alarm over temperature and broken couple.
Temperature control accuracy: ±1 ℃
Type K thermocouple
PC control software can be installed for real-time data collection (purchased separately).
Sealing system
Quick coupling flange
Vacuum degree
Bipolar rotary vane pump: 10^-2 torr.
Molecular pump Set: 10^-5 torr.
Leakage rate <5 mtorr/min.
Overall dimension
Furnace body: 590×380×520mm
Weight
40Kg
Warranty period
One-year warranty for the whole machine (except related consumables, such as furnace tube, sealing ring, and heating element)
certificate
CE certified
Product Display
Tube furnace with pumping system
- The furnace is designed for use in universities, scientific research institutes laboratories, and industrial and mining enterprises.
- It can operate in various controllable atmospheres and vacuum conditions.
high-temperature tube furnace
- Suitable for sintering, melting, analysis, and development of metals, non-metals, and other compounds.
- This furnace is considered an ideal equipment for specialized applications.
Exhibition
Certificate
FAQ
Q1: How does a battery vacuum tube furnace work?
A vacuum tube furnace works by utilizing heating elements, usually made of materials like silicon molybdenum rods, to generate heat. The quartz tube furnace consists of a cylindrical chamber or tube where the sample or material to be heated is placed. The heating elements, often located on the outside of the tube, heat the chamber uniformly.
Q2: What is the heating temperature in the battery vacuum tube furnace of the thermal cracking process?
In the thermal cracking process, the heating temperature in a three-zone vacuum tube furnace typically varies depending on the specific requirements of the process. It can range from several hundred degrees Celsius to over a thousand degrees Celsius. The exact temperature is determined by factors such as the desired reaction kinetics, the type of feedstock being cracked, and the desired product yield. The heating temperature is carefully controlled and maintained within the vacuum tube furnace to ensure efficient and controlled cracking of the feedstock.
Q3: How to use a vacuum tube furnace?
To use a battery vacuum tube furnace:
1. Preparation: Ensure the electric vacuum tube furnace is properly connected to a power source and any necessary gas or vacuum supply.
2. Loading: Open the furnace and carefully place the sample or material to be heated inside the tube or chamber.
3. Setting parameters: Set the desired temperature of the furnace using the temperature control panel or interface. Adjust any additional parameters such as heating rate, holding time, or gas flow rate if applicable.
4. Starting the heating process: Close the furnace and initiate the heating cycle by activating the power supply. The heating elements inside the furnace will gradually increase the temperature to reach the desired level.
5. Monitoring: Continuously monitor the temperature using the built-in temperature control instrument or an external thermometer.
6. Cooling: Once the desired heating process is complete, gradually decrease the temperature or turn off the power supply to initiate the cooling process.
7. Unloading: After the furnace has cooled down to a safe temperature, open it and carefully remove the sample or material.
8. Maintenance: Clean the furnace chamber and ensure it is in proper condition for future use.
Q4: How can furnaces be applied to battery production for the battery high-temperature tube furnace?
Electrode Materials Preparation: Vacuum tube Furnace are used to heat treat and activate electrode materials such as cathodes and anodes. The materials are coated onto current collectors and then heated in the furnace to optimize their structure and properties for improved battery performance.
Sintering: Battery Vacuum Tube Furnaces are used for sintering processes, where the active materials in the electrodes are fused together to create a cohesive structure. This enhances the conductivity and stability of the electrodes. etc.
